Can-testing machine.



J. E. MoUULLOUGH.

CAN TESTING MACHINE.

urmonmu rum) o0'1'.e,1o1o.

Patented Sept. 19,1911.

J. E. McGULLOUGH.

(JAN TESTING MACHINE.

APPLIGATIOH IILBD 0016,1910.

1,003,769. Patented Sept. 19, 1911.

B'BHEETS-BHEET 2.

J. E. MGOULLOUGH- CAN. TESTING MACHINE. APPLICATION FILED 0016,1910.

Patentd Sept. 19,1911.

6 SHEETS-SHEET 3 3 mm Q. @w 3 mm ma 2;

M rix 5 SHEIQES-BHEET 4.

Patented Sept. 19, 1911.

J. E. MoGULLOUGH. OAK TESTING MACHINE. AYPLIOAIIBI rump 001e, 1010.

def/206566.

JaZo

J. B. MCGULLOUGH. CAN TESTING MACHINE.

APPLICATION FiLED OQTJB, 1910. 1,003,769 Patented Sept. 19, 1911.

5 SHEETS-SHEET 5.

being operated through the lessenin JOHN E. MGCULLOUGH, OF CHICAGO, ILLINOIS.

GAN'TESTING MACHINE.

Specification of lettersPatent- Patented Sept. 19, 1911.

Application filed October 6, 1910. Serial No. 585,606.

To all whom it may concern:

Be it known that I, Jonn E. McCon- Loiuu-r, citizen of the United States, residing at Chicago, in the county of Cook and State of Illinois, have inventedcertain new and useful Improvements m Can-Testmg Mix-- chines, tio'n.

invention relates to improvements in machines for detecting the imperfections in the construction of tin cans or similar containers which cause them to admit air at the seams or joints.

The chief objects of the improvements which constitute the subject matter of, this of which the following is a specificaapplication are as follows: -to produce a machine of compact form that will handle a maximum number of cans in a minimum area of floor space and in the shortest time possible for proper testing conditions; to provide effective means for clamping and temporarily sealing the individual cans While under test; to provide sensitive and accurate means for automatically selecting and separating the defective or leaky cans from those properly COHStt'llCtEClj to provide means whereby the air under fll'essure will be prevented from leaking a ter the cans have been sealed and charged.

In carrying out the aforegoing objects and others of general utility, I have invented a machine of the character described which comprises generally a main frame; wheels mounted on. saidframe; an endless belt traveling over said wheels and made up chiefly of a plurality of can closing and clamping elements; means for automatically applying closures to the cans; means for automatically feeding the cans singly from the holding chute to the clamping elements; means for admitting air under pressure through the clamping elements to the intcrior of the cans without leakage and means for automatically detecting and releasing imperfect or leaky cans, said means g of the air pressure within the cans.

In the aecompanving drawings which forum: part of this application I have illustrated my invention in a preferred form of construction and arrangement in the followin views: 7

igure 1' is aside elevation of a machine constructed according to my invention with a portion removed; Fig. 2 is a vertical crosssectionon the line 2-2 of Fig. 1; Fig. 3 is a vertical crosssection on the line 33 of Fig. 1; Fig. i is an enlargz'cd detail part1 in section of the can clamping and caruving elements; high is an enlarged :-,ccth1nul detail of the can. carrier: Fin. (5 is an enlarged ele alioual \l('\\' of the can releasing mechanism and its adjacent and oomplcuu-ntary parts viewed from the inner side; Fig. 7 is an enlarged plan View of my iuuirm'ed air delivery rotating head; Fig. 8 is a sew tional detail sho'u'inir'the air tlt'lll'tlj' head til) and the method of driving sai'ne; Fig. 9 is fragmentary top plan view of the conveyor and clamping element; with the cans in position; Fig. 10 is a fraguu'rnlary view on an enlarged scale of the cams for releasing the can'clamping n'ieans. i

Referring to the details of the dn'm'i-ngs, the numeral 12 indicate.- the upper and 13 the lower parallel frame members, arranged in pt s longitudinally of the u'iacliine. The upper members 12 are formed of angle bars supported on frame extensions 12, while channel beams are used for the meu'ibers 13. The forward ends of the said members are supported upon a standard comprising side members or plates 14, joined togetllcr and firmly braced below by franuplates 15, and connected above by the rods 16. 16. The rear ends of the horizontal frame members are carried by a standard comprising side members or plates 17, also braced by plates 15, and having-a single connecting tie rod 16" which passes through the rear ends of .90 the upper frame members 12. Extending transversely between the sides of the front standard is a drive shaft 18. journaled in suitable bosses 1.9. One end of this drive shaft projects y from the frame and is journaled in a box carried on a bracket arm 21. bolted to the standard 14. Upon this drive shaft is loosely mounted a belt pulley 22, adapted to be operatively conneeted'to the shaft by a friction clutch 23; operated by a hand lever 24 pivot-ed on the arm 21. I Y i The drive shaft 18 carries a pinion 25, arranged about. the median line of the frame and adapted to mesh with a gear 26, mount- 1'05 ed on a counter sha f t 27 journalcd in boxes 28 on the front standard. One end of said COlll'lltJ'Slltfli projects upon the outside of the frame and has mounted thereon a pinion 9, meshing with a gear wheel 30 carried on the end of a sprocket shaft 31, journaled in boxes 31* on the standard side plates 14'.

This shaft 31 carries a pair of sprocket wheels 32, having straightfaces 33, each face bearing a sprocket tooth 34. Upon a shaft 31 in the rear standard is mounted a similar pair of sprocket Wheels 32 furnished in like manner with straight faces 33, and teeth The sprocket shaft 31 for the rear wheels does not project through the,

frame, since the Wheels which it carries are idlers, and its ends are j'ournaled in boxes 35 arranged in apertures 36 in the standard members17, and these boxes are adjusted in their slideways by set-screws 37. The urpose of the said sprocket wheels 32 is to rive an endless conveyor, or chain, made up of a plurality of units of special design linked necting rods 40, the eyes upon the opposite sides of the late being in staggered relation and the linuckles of one plate abutting the knuckles of the adjacent plate so-that all plates will bear the same relation to the conveyor, and be in perfect alinernent. Each base plate is supplied with slots 41, with which the sprocket teeth 34 en age, and

opposite upon the extremities of the rods 40 are mounted anti-friction rollers 42, which travel upon the u angle-bars 12, w en the link units are in the upper course of their travel between the pairs of sprockets, thus preventing sagging.

7 re ends of the base plates 38 are extended upwardly and outwardly toform an lar flanges 43- which, support cyliri boxes d4, 45, in which are mounted can clamping means hereinafter described.

U-pon. said boxes between ears 47 are arranged anti friction rollers 46, the arrangemenu-gt; the flanges and ears giving a triangular" outline to the link member when viewed from the end, as shown in Fig. 1. .The rollers 45 travel u on the upper flanges of the frame channe -bars 13, when said links or units are-in the lower line of travel, the manner'of en agement of both series of rollers being clear y shown in Fig. 1 inltheir diiferent positions in. the upper and lower courses.

The bearings upon both ends of; the base or link plate 38ers bored horizontally to receive canclamp-ing members, differing in the details of construction at the opposite per surfaces of the frame ends. The clamping element shown upon the right hand end of the link'plate 38, in Fig.4, 'is termed, from its function, the closihg head, and .it is through'this element that the can to be tested is charged with air under pressure. This closing head comprises a plunger 48, slidably mounted in the bore of the hearing or box 44 and extending entirely through the s: .id box. The outer end of tb e-plun, er is provided with an enlarged head 19, orming a shoulder 50 which engages the outer face of the said box to limit the inward movement of the plunger 48 when the latter is inoperative position. The inner end of the plunger is provided with an integral flange 51, and provision is .made for assemblingthc plunger by making the box 44 in two parts, as in ordinary journal boxes, fastened together by bolts 52 (Fig. 9).. The plunger is furnished with an axial bore 53, the inner end of which is .enlarged by a counlerbore 54. Upon the inner face of the flange 51 is applied a closing disk 55 provided with, an annular ledge or flange 56. The said. disk is bored centrally and threaded to receive a flanged plug 57, having a central hole 58, which communiplunger. The inner end of the plug 57 projects through said disk 55 and engages threads in the inner end of the plunger 5 1, thus maintaining the disk 55 in apposition with the flange 51 of the plunger. The lat- ,;,ter is held in a retracted position with the "shoulders 50 in contact with the box 44, by a plurality of concentrically arranged coiled springs 60 which engage sockets in the ap proximate faces of the box and flange 51. The inner and outer ends of the bore 53 of the plunger are made conical to form seats for similarly shaped members which will now be described. The outer conical seat 61 is closely fitted with an elastic plug or cushion 62 preferably formed of rubber: The inner conical seat 63 has seated therein a suitable conical vvalve 64, also made of rubber in an elastic state. The elastic cushion 62, and the rubber valve 64 are joined by a: stem 65, having its middle ortion enlarged to slidably 'fit in the said. ore 53. The ends of the said stem project through the valve and. cushion, the inner extremity having a fixed collar, or head 66, while the outer end is provided with a nut 67, having itSIouter. face made convex "for a purpose that will be explained. The'plungar head 49 has .auextension 68 upon the ower side and in this extension is a. conical do )ression 70, which communicates through a not 71 with the valve seat 63. The bearmg or boxing et5 at the opposite end. of the link plate 38 is provided with a. central bore 73 consisting of a hollow cylinder or shell having a squared-head 74 upon the inner rates at one end with the bore 54 of the 72 in whichis slidably mounted a plunger end and furnished with a Wide collar 7f upon the outer end. The bore of said shell is internally threaded to receive a threaded stem 76 which projects bcyoi'ld the inner end of the said shell and is supplied at the end with a. circular can clamping disk 77 approximating in diameter the. disk 55 previously mentioned. The outer end of the bore of the shell is closed by a threaded plug 78, having its end face made convex, as shown at 79. The plunger 73 is urged out wardly by a coiled spring 80 which abuts at one end against the shoulder formed by the collar 75, and at the other engages an annular flange 81, projecting inwardly from the inner wall 01" the bore. The said plunger is held from turning in its hearing by a key 82 which does not interfere with the sliding movement. The }')ll1I1gBI is held in extended position against the action of the spring 80 by a latch or dog 83, pivoted at 8-1, and having a projection or tooth 85 adapted to engine the end of a longitudinal slot, 86, formed in the collar 75. The dog 83 is held in its engaging position by a spring 87 which is lodged in a socket in the under side of the bearing 45 and engages the inner end 88 of the said dog. The latter is disengaged from the slot 86 by pressing its inner end upward by the action of a release frame arranged as follows :-l*lxtending longitudinally through suitable holes in the link plate 38 are a pair of rods 89, connected at the opposite ends by crossbars 90, 91. The bar 90 lies directly beneath the inner end of the said dog and has a log 92 adapted to engage an inclined. face 93 formed on the under side of the end The opposite crossbar 91 is provided with an anti friction roller 94-, and the release. frame is held in a retracted position by coiled springs 05. sufficient pressure 9-1 to compress the springs 95, the lug 92 will press the end 88 of the dog upward and release the plunger 73.

The function of the disks 55 and 77 is to clasp or clamp the ends of the can to be tested. In Fig. 4 a can 96 is shown held in clamped position between the said disks. The can is supported in a holder or cradle consisting. of a semi-circular plate 97, adapted to lit the curvature of the cans and removably secured to the link plate 38. midway between the flanges 4 1, by a set screw 98. This permits cradles t" ditferent dimensions to be used to suit variations in the sizes and shapes of the cans. The latter are held in the position shown in Fig. .4, the bottom being toward the disk 77 while the margin of the open end or top of the can engage an annular rubber ring 99 or other elastic. material, set/in a groove in the flange 56 of the disk 55. Adjustment is made for cans of different length by turning the It. will be readily seen that when is made against the roller l threaded stem 76, so that-when the plunger is held by the dog 83 it will press with sullicient force against the elastic ring 99. The dog its-made to engage the collar 75 by forcing the plunger inwardly at the proper time by men us of a cam 79 fixed on the frame.

Secured to the trout standard is a can feeding hopper or chute comprising a pair otchannclcd or grooved frame. pieces 100 (Figs. 1 and 2) having eyes 10] through which the tie rod 16 passes, a diagonal brace [02, supported at the lower end upon the other tie rod 16, holding the chute firmly in an upright position. The cans are placed in said chute one above the other as shown in the drawing, the ends of the cans engagin the channels in the end pieces 100. The cans descend in the chute by gravity and their travel downward is controlled by a detent 10 pivoted at [0t to the side of the chute. and held in engagement: with the lowermost can in the chute, by a coiled spring 10?: uumnted on a rod ltlti pivoted to the upper end of said finger 103. The latter is opm'ated to disengage it from the can by means of a trip arm. 10?, pivoted on the rod '1 (1. The upper end 108 of the trip arm is pivoted, to the said rod 106 and the lower end of the trip projects into the path of the. disks 7?. the extremity of the trip being snp 'ilierl with a roller 109 to reduce friction.

ll'lounted upon one side otthe frame on a level with the upper course of the endless conveyor. is a charging head (Figs. 3,4, and 9) through which air under pressure is introduced into each can as it travels by this point. This charging head comp!" es :1 cylinder 10 which is a dup cate ol the right hand .or outer end of the plunger 48, the only difl'erencc being in the contraction of the chamber 54", and the introduction therein of the threaded end of an air supply pipe 111. For the purpose of differentiating these duplicate devices the parts comprising the charging head are given distinct reten ence numerals. Thus the character 53* designates the center bore. fl? the rubber cushion. and 63 the valve seat, fitted with a suitable rubber valve 61-. The said cushion and valve are connected by a valve stem 63. ha ving the (.HSlliUtl retaining head tilt" at one end. while the other end is furnished with a nut 37 to hold the *alve'in place. The lower portion of the cylinder 110 is furnished with an extension having a cone shaped chamber counnunicating with the valve seat (13 by av duct 7]..

Arrangedupon the front standard is a leak detecting device com 'n'ising a rotary valve vhich, with its cooperating mechanism. is shown in Figs. 6, 7, and 8. The said device comprises a cone shaped-plug or valve seat 112 mounted in a vertical p0- sition in a bracket 113 attached to the standard, a set screw 114 holding the plug firmly in its socket in the bracket. Surrounding said plug 112 and adapted. to rotate thereon,

is a hollow cylindrical valve 115, the upper portion of which is counter-bored, as indicated at 116, forming a chamber into which the upper end of the said plug projects. The valve 18 retained on its seat by a collar or ring 117, having threaded connection with the end of the plug and said ring carries a series of plungers 118, mounted in sockets in the ring, and pressed against the bottom of the chamber 116 by springs 120. The plug 112 has an axial bore 121. extending from the lower surface artly through the mem her then taking a orizontal course as indicated at 122, and opening upon the conical face of the plug. The body of the valve 115 is provided with a. plurality of spaced apertures 123 adapted to register successively with the bore 122 when the valve is located. Into each aperture 123 is inserted an elon gated nipple 124, having a soft rubber tip 125 secured to the outer end, the extremity of the tip being made rounded or cone shaped as shown at 126. The valve 115 is rotated by means of a shaft 127 mounted in a vertical bearing 128, carried by the frame. Upon the lower end of said shaft is keyed a flanged collar 129, which is inserted into the counterbore 116 of the valve and securedtherein by set screws 130. The upper end of the shaft above the bearing 128 carries a bevel gear wheel 131 which receives motion from a pinion 132, borne on the end of the previously mentioned countershaft 27. A short pipe 133 is inserted into the lower end of the valve seat or plug 112, and forms a continuation of the duct or bore 121. I

Arranged adjacent the rotary valve. above described is a cylinder or cup 134, supported by an integral bracket 135 to the frame of the machine. Projecting. upward from the bottom of this cup is a cylindrical boss 136, nearly as wide as the cup cavity, so that there remains a comparatlvcly narrow annular s ace 137 between the boss and the cup we 1.. Projecting downward from the cup is an extension 134, having a bore 134* which extends entirely through the boss. The extension 134 is connected with the pipe 133fby a pipe 133, having upturned aring en'ds which receive the tapering ends of the extension 134. and vip e 133 to foim suitable air tight coup ings. Arranged within the cup 134 is a plunger 138, ho]- lowed out upon the under side giving it'the form of an inverted cup or'bell which fits over the boss so that its margin rojects downward into the annular space 13 The inner surface of the plunger is provided with a shoulder 139, adapted to rest upon the marginal? the said boss." The space surrounding the boss is partially filled with mercury 140.into which the lip 141 of the plunger dips, the mercury thus forming a seal between the bore 13 1* and the interior of the cup. The cup or cylinder 134 is pro vided with a closely fitting cap 142, secured to the bodyof the can b' screws 1 13. The said plunger 138 is furnished with a stem 1 14 which projects through a central aperture in said cap, and is provided withih the cap with threads 1455 engaged by an adjust ing nut 146. A coiled spring 117 surrounds the stem 144 above said nut andtends to urge the plunger downward. Extending upward at an angle from the margin :of the cap 142 is a bracket 148 upon whichis pivotally mounted a bent lever 149. The lower end 150 of this lever is comparatively short and extends horizontally toward the stem of-the plunger. Rising vertically from the cap 142 is a bracket 15] upon which is rockably mounted a lever 152, one end of which bears upon the short arm 150 of the lever 149, and the other is in contact with the upper end of the plunger stern 14:4. The upper end of the lever 149 is pivotally connected by a link 15 with a detent lever 154:, pivoted to the frame, at 155, and provided at its lower end with a hook or tooth 156. The initial position of the lever 154 can be varied by adjusting a tensioning spring" 157 which is attached at one end to the lever 149, and at the other to a screw 158, mounted in it bracket 159. The-purpose of the lever 15 1 is to control the can releasing devices at the testing place, it being necessary to prevent all defective cans from being carried beyond the point. 160 is arranged tomove vertically in ways 161 and is supported by a roller 162 which rests upon the periphery of a disk cam 163 carried by a shaft 164, against the action of a spring 165 which tends to hold the roller 162 in contact with said cam. The shaft 164 receives motion through a pinion 160 from a gear 167 mounted on the counter shaft 27. The upper end of the slide is furnished with a la ral projection 16S and the hook 156 is adapted to move into the path of this projection when the lever 154 is swung to the position shown in dotted outlines in Fig. 6, and it will be readily understood that if the said lever is so swung when the slide is in its highest position the hook will interlock with the projection 168 and prevent the slide from descending. When at its lowest position the end of the slide extends into the path of the roller 94 on the releaseframe end 91, and as the can bearing link passes the slide the said. roller will enirage the inclined face of a block 160 secure thereto and release the dog 83 by sliding the release frame longitudinally.

The operation of the machine, described general way isas follows :-The end- To accomplish this a slide less belt of links or can carriers moves at a uniform rate in the direction of the arrow. A. comparatively large number of the links are provided in order that a sullicicnt length of time will elapse after the cams are charged hetore arrivin at the testing point to permit an appreciahlc amount of air to escape. in case the leak should be comparatively slight. As the links pass underneath the feed chute the cans are. automatically deposited therein in the manner previously described. is there is more or less play between the loosely connected links provision is-made for steady rig the belt or conveyor to prevent lateral motion, especially atpoints where the charging and em )tying ol' the cans take place. This is accomplished by arrintging guide rails 72-) along side the belt at the proper places, said rails heing adapted to engage the ends of the plunger-s and keep them in line. Innnediately following the deposit of the can in the cradle of the link the convex end '4'.- ol' the plug 78 is engaged by an inclined 'l'aro lit}, formed onlhe guide rail 75) and this pushes the plunger inward until the dog S2- engagrs the slot 86. At the same time the end 01 the opposite head 49 is engaged by an inclined face 170* on the correspomling rail 71), thus clamping the can firmly between the disks 55 and 77- as previously described and illustrated in l igs. 4 and 6. Upon arriving opposite the charging head 110, the convex faces 68, (38, will mutually engage with sutlieicnt lo-gce to compress the elastic cushions (i2, 0;, and open the valves ti l, 64. It will be understood that the pipe 111 connected with a supply of air under pressure, so that as soon as the said valves open the air will enter the can through the ducts or channels 71, 71. One purpose of the conical. depressions forming months for the said ducts is to increase the duration of the communication between the ducts 71, 71, so that the uniform movement of the'links will not cut oil the air supply too soon. There is an airtight sliding lit between the contacting faces of the parts 68'--1 10 adjacent the conical openings '70, 70, so that air in passing from the duct 71 to the duct 71, will not escape, and the nuf-cting edges of said parts are slightly beveled to prevent said parts from hen-outing interlocked as they meet during the travel'of the can carriers past the aircharging member. After being thus charge-til with air under a given amount of pressure, the cans pass around the sprockets at the rear of the machine and travel hack toward the front along the lower course until rcaching the location of the rotary valve 115. This valve is in constant-- rotation through the action of the gearing hercinbcforc dcscribed, and as it revolves the tips of the radial nipples engage successive] y with the conical months 70 of the ducts 71, forming an air tight. connection, at the same time that the plunger 4.8 is pressed inward by contact of the nut 67 with an inclined face 171., thus opening the valve (14, and allowing the air confined in the can to pass through the connecting tube and press upward upon the plunger 138. The stem of the plunger being in Contact with the rocle lever l52 any amount of upward movement of the plunger will be imparted. through the various connections to the detent lever 15,4, and the hook 156 will be swung toward the slide the amount of movement depend-- ing upon the degree of pressure in the cavity of the plunger 138. The springs 147 and 157 are previously adjusted so that the initial pressureof the air introduced with the can at the charging point, will be just adequate to carry the hook 156 into the path of. the projection 168 on the release slide 160. As a consequence of this relative adjustment, the hook will swing to its engaging position only when there has been no leakage in the can, and as the can releasing slide will thus be rendered inoperatlve, the perfect can Wlll be retained in its seat and passed along until it reaches a second re-' lease point, where the roller on the release frame will; engage the inclined lace of a block 172 causing the said frame to move, in its slideway and trip the dog 83, whereupon the spring will retract the plunger and re lease the can; In case, however, the can should prove'defcctive, by the time it has reached the discharging valve a certain amount of air will have escaped and as a consequence there will not be sufiicient pressure to lift the plunger to the limit of its stroke and the detent lever will move only slightly, it at all, and since there will be no hindrance to the drop of the slide the latter will descend to its full extent bringing the cam block 160 on its lower end into the path of the roller and releasing the dog 83 in the same manner as described for the fixed incline, so that the detective "cans will all be dimardcd ata point distinct from that: for dis-changing the perfect cans. A s the dogs 83 are invariably tripped at one of the discharging points, each unit or link in the conveyor is empty as it passes up over the sprocket; wheels at the front end of the machine and is thus in condition to receive another can as it under the feed chute. I

Having thus described my invention what I claim'as new, is'.:

1. in a' can-testing machine, a main supporting frame, an endless conveyor mounted to travel on said frame, can' 'clainping means on said conveyor comprising two clamping members one of, which is adapted to admit air to a can on said conveyer, means for conducting trir to said clamping member, a

.the air pressure in a can.

2. In a can-testing machine, a main support ng .t'rame, a can chute on said .frame, an endless eonveyer mounted on said trame,

, -an-clamping means on, said'conveyer, said means comprising two clamping members,

one of which is adapted to admit air to a can on said conveyor, valve-controlled means for conducting air to said clamping member,

a latch on the other clamping member adapted to hold the latter in operative position, means on said frame for releasing said latch when said clamping devices are at one position on the frame, and means for releasing said latch when the clamping devices are at another position on the frame, said last named means operable through the reduc tion-of the air pressure in a can. r

3. In a can-testing machine, a conveyor com osed of a plurality of can-holding units fiexi ly connected, each. of said units comprising a cradle adapted to support a can, two clamping heads arranged on said cradle and adapted tocngage opposite ends of the can, one of said heads having an air-passage therethrough and the other head adjustable, valve-controlled 'devices on said cradle for admitting air to said air-passage and means on said cradle for'locking the adjustable head in operative position, in combination with means for operating the valve-con trolled devices on the cradle to c nduct air to said passage, and means for operatii said valve-controlled devices to permit t'li air to return through saidpassage.

4-. In av can-testin machine, a main supporting frame, a piuralityot' canholdiug units flexibly connected to form aueudless conveyor traveling on said frame, each of said units comprising a cradle adapted to support a can, two yielding heads arranged at oJposi-te ends of said cradle, one otsa'ul hear s having an air passage thcretlu'ough and the other being adjustable relative to said air-passage head, means on said cradle for lockingsaid adjustable head in operative position, a self-closing valve arranged in the head having the air- )assage and controlling ,said mssage, means or operating said valve to at mit air to said passage, means for opcrating said valve to release thoair from said passage, said last means including air conducting means, and can releasing means communicating with said air-conducting means and operatively cont rolled through the pressure of the air therein.

5. In a can-testing machine, can-holding means havingan air passage therein, a selfclosingvalve controlling stud passage, nieans for conducting air under pressure to said passage, said means having an air conduit therein and comprisin a valve adapted to operate the first name valve toadinit air to the passage and means for ope -ating said first named valve to release the air from said passage, said means adapted to conduct theair from said passage, and can releasing means communicating with said air-conducting means and operatively controlled by the air therein.

6. In a can testing machine, can holding means comprising a clamping head havinan air passa e therethrough, a valve 'seate in said hen controlling said passage and having one end. extending from said head, means for con'ductingair to said passage, said means comprising: a member having an air passage therethrough and a valve seated in said member, controlling said passage and projecting from said member, said valves adapted to be opened through contact with each other.

, 7. In a can testing machine, a supporting frame, can holding means adapted to support a can and having clamping heads, one of which is provided with an air-passage therethrough, and a valve controlling said passage, and means for conducting air to said passage, said means having a sliding contact with the outer end of said head, adapted to opeii the valve in said head and having an air-passage registering with the air passage in to clamping head.

8. In a pneumatic can-testing machine, means "for introducing air under pressure to the cans, said means comprising scan-clamping member having an air passage therethrough, ayiehling valve normally closing said p'assage,and means for operating sai valve, said means comprising a cushioned member connected with said valve, and means for operating said cushioned member.

9. In. a pneumatic can-testing machine, means for introducing air under pressure to the cans, said means comprising a can holding andrlamping member having an air passage therctlu'ough, a yielding valve normally closinw said passage, and means for operating said valve, said means comprisin a cushioned member connected with said va ve, means for conducting air under pressure to said passage, and a cushioned valve mounted in said air conducting means and adapted to named valve.

l0. in a can-testing machine, a can holding unit com rising clamping heads, one of said heads avin an air-passage therethrough, a self-closing valve mounted in said head, controlling said passage and having a portion projecting from said head, means or opening said valve by do ressing the project ing portion thereof, an means havin a'n air-conducting passage therein ads to to register with the air passage in said cad.

11. In a contesting machine, can-holding operate the cushioned member of the first-.

gage one of said heads means comprising a frame, clampin heads carried by said frame, a pawl adapte to enand lock it in clampmg position, the other of said heads having an air-passage therein, in combination witi a member having an air-chamber adapted to communicate with the air passage 1n said head, and means, including a piston in said chamber for controlling said locking pawl through the pressure of air in said chamber.

12. In a can-testing machine, can holding means comprising a frame, two clampin heads carried by said frame, one of sai heads having an air-passage pawl adapted to lock the other of said heads in clamping position, in combination with a member having an air chamber adapted to communicate with the air passage in said head, and means, including a piston in said chamber, a movable cam adapted to release said pawl, and connections between said cam and piston for controlling said locking pawl through the pressure of air in said chamber.

13. In a can-testing machine, can holding means comprising a frame, two clamping heads supported by said frame, one of said heads having an air-passage therein, and a pawl clamping position, in combination with a member having an air chamber therein, a valve connecting said chamber with said air passage, :1 piston in said chamber, a movable cam and connections adapted to release said pawl, and means connecting said cam and piston whereby the pawl will be controlled through the pressure of the air in said chamber. a 5

14. In a can-testing machine, can holdin means comprising a plurality of connected frames, two clamping heads on each frame, one of said heads having an air passage therethrough, means for locking one of said to engage said locking therein, and a adapted to lock the other head in heads in clamping position, in combination with'means for conducting air to said air passage, means for releasing the head looking means, said releasing means comprising a movable valve having a plurality of ports adapted to be brought successively into communication wit said air passage, an air receiving chamb communicatin with said valve, a piston mounted in said chamber, and means controlled by said piston adapted means.

15. In a can-testing machine, can holding means comprising a plurality of bin edly connected rames, two clamping heat s on each of said frames, one of said heads having a valve controlled air passage therethrou b, means on said frame for locking the ot er head in clamping position, in combination with means, for conducting air under pressure to said air passage, and means for conducting air from said passage,'both of said means comprising resilient members, valves and air passages, and said passages adapted to be brought into communication with the air passage in said clamping head when the valve controlling said air passage is in open position. i

16. In a can-testing machine, a can-holder comprising clamping heads, one of which has an air passage therethrough, means con- .trollin said passage consisting of a double conical valve adapted to be opened by the compression of bne portion of the valve and v to be closed by the expansion of said por- 'tion, means for compressing said valve and means for conducting air to said air-pas- SB. 8.-

' n testimony whereof I afiix my signature in the presence of two witnesses. JOHN E. MCCULLOUGH.

Witnesses:

M. A. MILORD, F. BENJAMIN. 

